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4e30d875bf
This patch implements first part of Flow Sensitive SampleFDO (FSAFDO). It has the following changes: (1) disable current discriminator encoding scheme, (2) new hierarchical discriminator for FSAFDO. For this patch, option "-enable-fs-discriminator=true" turns on the new functionality. Option "-enable-fs-discriminator=false" (the default) keeps the current SampleFDO behavior. When the fs-discriminator is enabled, we insert a flag variable, namely, llvm_fs_discriminator, to the object. This symbol will checked by create_llvm_prof tool, and used to generate a profile with FS-AFDO discriminators enabled. If this happens, for an extbinary format profile, create_llvm_prof tool will add a flag to profile summary section. Differential Revision: https://reviews.llvm.org/D102246
296 lines
11 KiB
C++
296 lines
11 KiB
C++
//===-Config.h - LLVM Link Time Optimizer Configuration ---------*- C++ -*-===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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//
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// This file defines the lto::Config data structure, which allows clients to
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// configure LTO.
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_LTO_CONFIG_H
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#define LLVM_LTO_CONFIG_H
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#include "llvm/ADT/DenseSet.h"
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#include "llvm/Config/llvm-config.h"
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#include "llvm/IR/DiagnosticInfo.h"
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#include "llvm/IR/GlobalValue.h"
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#include "llvm/IR/LLVMContext.h"
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#include "llvm/IR/LegacyPassManager.h"
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#include "llvm/Passes/PassBuilder.h"
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#include "llvm/Support/CodeGen.h"
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#include "llvm/Target/TargetOptions.h"
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#include <functional>
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namespace llvm {
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class Error;
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class Module;
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class ModuleSummaryIndex;
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class raw_pwrite_stream;
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namespace lto {
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/// LTO configuration. A linker can configure LTO by setting fields in this data
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/// structure and passing it to the lto::LTO constructor.
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struct Config {
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enum VisScheme {
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FromPrevailing,
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ELF,
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};
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// Note: when adding fields here, consider whether they need to be added to
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// computeCacheKey in LTO.cpp.
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std::string CPU;
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TargetOptions Options;
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std::vector<std::string> MAttrs;
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std::vector<std::string> PassPlugins;
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/// For adding passes that run right before codegen.
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std::function<void(legacy::PassManager &)> PreCodeGenPassesHook;
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Optional<Reloc::Model> RelocModel = Reloc::PIC_;
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Optional<CodeModel::Model> CodeModel = None;
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CodeGenOpt::Level CGOptLevel = CodeGenOpt::Default;
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CodeGenFileType CGFileType = CGFT_ObjectFile;
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unsigned OptLevel = 2;
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bool DisableVerify = false;
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/// Use the new pass manager
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bool UseNewPM = LLVM_ENABLE_NEW_PASS_MANAGER;
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/// Flag to indicate that the optimizer should not assume builtins are present
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/// on the target.
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bool Freestanding = false;
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/// Disable entirely the optimizer, including importing for ThinLTO
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bool CodeGenOnly = false;
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/// Run PGO context sensitive IR instrumentation.
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bool RunCSIRInstr = false;
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/// Asserts whether we can assume whole program visibility during the LTO
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/// link.
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bool HasWholeProgramVisibility = false;
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/// Always emit a Regular LTO object even when it is empty because no Regular
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/// LTO modules were linked. This option is useful for some build system which
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/// want to know a priori all possible output files.
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bool AlwaysEmitRegularLTOObj = false;
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/// Allows non-imported definitions to get the potentially more constraining
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/// visibility from the prevailing definition. FromPrevailing is the default
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/// because it works for many binary formats. ELF can use the more optimized
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/// 'ELF' scheme.
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VisScheme VisibilityScheme = FromPrevailing;
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/// If this field is set, the set of passes run in the middle-end optimizer
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/// will be the one specified by the string. Only works with the new pass
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/// manager as the old one doesn't have this ability.
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std::string OptPipeline;
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// If this field is set, it has the same effect of specifying an AA pipeline
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// identified by the string. Only works with the new pass manager, in
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// conjunction OptPipeline.
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std::string AAPipeline;
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/// Setting this field will replace target triples in input files with this
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/// triple.
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std::string OverrideTriple;
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/// Setting this field will replace unspecified target triples in input files
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/// with this triple.
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std::string DefaultTriple;
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/// Context Sensitive PGO profile path.
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std::string CSIRProfile;
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/// Sample PGO profile path.
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std::string SampleProfile;
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/// Name remapping file for profile data.
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std::string ProfileRemapping;
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/// The directory to store .dwo files.
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std::string DwoDir;
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/// The name for the split debug info file used for the DW_AT_[GNU_]dwo_name
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/// attribute in the skeleton CU. This should generally only be used when
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/// running an individual backend directly via thinBackend(), as otherwise
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/// all objects would use the same .dwo file. Not used as output path.
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std::string SplitDwarfFile;
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/// The path to write a .dwo file to. This should generally only be used when
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/// running an individual backend directly via thinBackend(), as otherwise
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/// all .dwo files will be written to the same path. Not used in skeleton CU.
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std::string SplitDwarfOutput;
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/// Optimization remarks file path.
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std::string RemarksFilename;
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/// Optimization remarks pass filter.
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std::string RemarksPasses;
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/// Whether to emit optimization remarks with hotness informations.
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bool RemarksWithHotness = false;
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/// The minimum hotness value a diagnostic needs in order to be included in
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/// optimization diagnostics.
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///
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/// The threshold is an Optional value, which maps to one of the 3 states:
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/// 1. 0 => threshold disabled. All emarks will be printed.
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/// 2. positive int => manual threshold by user. Remarks with hotness exceed
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/// threshold will be printed.
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/// 3. None => 'auto' threshold by user. The actual value is not
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/// available at command line, but will be synced with
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/// hotness threhold from profile summary during
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/// compilation.
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///
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/// If threshold option is not specified, it is disabled by default.
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llvm::Optional<uint64_t> RemarksHotnessThreshold = 0;
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/// The format used for serializing remarks (default: YAML).
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std::string RemarksFormat;
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/// Whether to emit the pass manager debuggging informations.
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bool DebugPassManager = false;
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/// Statistics output file path.
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std::string StatsFile;
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/// Specific thinLTO modules to compile.
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std::vector<std::string> ThinLTOModulesToCompile;
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/// Time trace enabled.
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bool TimeTraceEnabled = false;
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/// Time trace granularity.
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unsigned TimeTraceGranularity = 500;
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bool ShouldDiscardValueNames = true;
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DiagnosticHandlerFunction DiagHandler;
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/// Add FSAFDO discriminators.
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bool AddFSDiscriminator = false;
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/// If this field is set, LTO will write input file paths and symbol
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/// resolutions here in llvm-lto2 command line flag format. This can be
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/// used for testing and for running the LTO pipeline outside of the linker
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/// with llvm-lto2.
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std::unique_ptr<raw_ostream> ResolutionFile;
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/// Tunable parameters for passes in the default pipelines.
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PipelineTuningOptions PTO;
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/// The following callbacks deal with tasks, which normally represent the
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/// entire optimization and code generation pipeline for what will become a
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/// single native object file. Each task has a unique identifier between 0 and
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/// getMaxTasks()-1, which is supplied to the callback via the Task parameter.
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/// A task represents the entire pipeline for ThinLTO and regular
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/// (non-parallel) LTO, but a parallel code generation task will be split into
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/// N tasks before code generation, where N is the parallelism level.
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///
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/// LTO may decide to stop processing a task at any time, for example if the
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/// module is empty or if a module hook (see below) returns false. For this
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/// reason, the client should not expect to receive exactly getMaxTasks()
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/// native object files.
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/// A module hook may be used by a linker to perform actions during the LTO
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/// pipeline. For example, a linker may use this function to implement
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/// -save-temps. If this function returns false, any further processing for
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/// that task is aborted.
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///
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/// Module hooks must be thread safe with respect to the linker's internal
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/// data structures. A module hook will never be called concurrently from
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/// multiple threads with the same task ID, or the same module.
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///
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/// Note that in out-of-process backend scenarios, none of the hooks will be
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/// called for ThinLTO tasks.
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using ModuleHookFn = std::function<bool(unsigned Task, const Module &)>;
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/// This module hook is called after linking (regular LTO) or loading
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/// (ThinLTO) the module, before modifying it.
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ModuleHookFn PreOptModuleHook;
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/// This hook is called after promoting any internal functions
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/// (ThinLTO-specific).
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ModuleHookFn PostPromoteModuleHook;
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/// This hook is called after internalizing the module.
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ModuleHookFn PostInternalizeModuleHook;
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/// This hook is called after importing from other modules (ThinLTO-specific).
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ModuleHookFn PostImportModuleHook;
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/// This module hook is called after optimization is complete.
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ModuleHookFn PostOptModuleHook;
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/// This module hook is called before code generation. It is similar to the
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/// PostOptModuleHook, but for parallel code generation it is called after
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/// splitting the module.
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ModuleHookFn PreCodeGenModuleHook;
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/// A combined index hook is called after all per-module indexes have been
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/// combined (ThinLTO-specific). It can be used to implement -save-temps for
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/// the combined index.
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///
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/// If this function returns false, any further processing for ThinLTO tasks
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/// is aborted.
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///
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/// It is called regardless of whether the backend is in-process, although it
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/// is not called from individual backend processes.
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using CombinedIndexHookFn = std::function<bool(
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const ModuleSummaryIndex &Index,
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const DenseSet<GlobalValue::GUID> &GUIDPreservedSymbols)>;
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CombinedIndexHookFn CombinedIndexHook;
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/// This is a convenience function that configures this Config object to write
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/// temporary files named after the given OutputFileName for each of the LTO
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/// phases to disk. A client can use this function to implement -save-temps.
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///
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/// FIXME: Temporary files derived from ThinLTO backends are currently named
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/// after the input file name, rather than the output file name, when
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/// UseInputModulePath is set to true.
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///
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/// Specifically, it (1) sets each of the above module hooks and the combined
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/// index hook to a function that calls the hook function (if any) that was
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/// present in the appropriate field when the addSaveTemps function was
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/// called, and writes the module to a bitcode file with a name prefixed by
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/// the given output file name, and (2) creates a resolution file whose name
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/// is prefixed by the given output file name and sets ResolutionFile to its
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/// file handle.
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Error addSaveTemps(std::string OutputFileName,
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bool UseInputModulePath = false);
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};
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struct LTOLLVMDiagnosticHandler : public DiagnosticHandler {
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DiagnosticHandlerFunction *Fn;
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LTOLLVMDiagnosticHandler(DiagnosticHandlerFunction *DiagHandlerFn)
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: Fn(DiagHandlerFn) {}
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bool handleDiagnostics(const DiagnosticInfo &DI) override {
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(*Fn)(DI);
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return true;
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}
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};
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/// A derived class of LLVMContext that initializes itself according to a given
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/// Config object. The purpose of this class is to tie ownership of the
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/// diagnostic handler to the context, as opposed to the Config object (which
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/// may be ephemeral).
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// FIXME: This should not be required as diagnostic handler is not callback.
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struct LTOLLVMContext : LLVMContext {
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LTOLLVMContext(const Config &C) : DiagHandler(C.DiagHandler) {
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setDiscardValueNames(C.ShouldDiscardValueNames);
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enableDebugTypeODRUniquing();
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setDiagnosticHandler(
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std::make_unique<LTOLLVMDiagnosticHandler>(&DiagHandler), true);
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}
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DiagnosticHandlerFunction DiagHandler;
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};
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}
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}
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#endif
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